SU381801A1 - YoCi ^ OznAnAFEhTho-iLASJ ^ iHtlHsiij - Google Patents

Description

one

The present invention can be used in the metallurgical, engineering, shipbuilding and other industries to reduce noise caused by the outflow of air or gas flows into the atmosphere.

Known chamber silencers aerodynamic noise contain a cylindrical body, covered inside with sound-absorbing material, divided by longitudinal partitions into expansion, working and output chambers.

The noise suppression effect is enhanced due to the fact that the silencer is provided with four tubes located along the stream inside the working chamber, on the side surfaces of which along cylinders which are adjacent to the axis of the body are cylindrical holes, the axes of which are offset in two adjacent tubes the plane of the axes of the holes in the other two tubes.

FIG. 1 shows a longitudinal section of the muffler; in fig. 2 - cross section along LL; in fig. 3-diagram of the interaction of the jets in the working chamber of the muffler.

The inner part of the cylindrical body / section is divided by longitudinal partitions 2, 3 into interconnected expansion 4, working 5 and output 6 chambers. In the expansion chamber, a perforated housing 7 made of sheet steel is installed, in the working chamber there are four tubes 8, open from the side of the expansion chamber, provided with openings 9 and reinforced in the bulkhead

2 with its open ends 10. On the partition 2 there is a passage opening. The partition 3 tightly closes the ends of the tubes on the output chamber side, and its edges, attached to the body / silencer, are provided with perforations, through the openings of which the flow enters from the operating chamber 5 to the output 6. There is an end silencer 11 in the output chamber.

In the working chamber 5, an acoustic absorbent 12, such as a wire, was used to reduce aerodynamic noise. The sound-absorbing material is covered with a metal grid 13, which prevents it from being displaced by the flow. To prevent acoustic vibration under the influence of variable aerodynamic pressure, the inner side of the body, walls, androdol partitions and individual elements of the silencer are covered with sheet rubber 14, which is attached with mastics or metal studs.

Through the inlet 15, the air enters the expansion chamber {) y 4, where due to the reflection of sound at the inlet and outlet and

a decrease in sound energy density due to its distribution over the chamber volume leads to a partial decrease in the intensity of the noise. Perforated cone promotes uniform flow in the tube 8.

The working chamber enters the flow through the opening 10 and the opening 9 in the tubes 8. Air jets flowing out from the openings 9 of two adjacent pipes collide with each other and with the air flow coming through the passage opening 10, as a result of which the separate jets are mutually attenuated and the effect of absorbing noise by sound absorbers 12 located in the working chamber is increased.

Through the perforations in the longitudinal septum 3, the stream enters the exit chamber 6 and is emitted through the end silencer 11 into the atmosphere.

Subject invention

A chamber silencer of aerodynamic noise, comprising a cylindrical body, covered inside with sound-absorbing material, divided by longitudinal partitions into an expansion working and output chambers, characterized in that, in order to increase the sound attenuation effect, it is provided with four tubes along the side, inside the working chamber, along lateral the surfaces of which are shaped, adjacent to the axis of the body, are made cylindrical holes, the plane of the axes of which in two adjacent tubes are shifted in height relate Flax plane of the axes of the holes in the other two tubes.

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